DC to DC converter with feed forward and feed back regulation
First Claim
1. A DC to DC converter for converting an input voltage which may change in amplitude into an output voltage having a substantially constant amplitude utilizing feed forward control to decrease the time required to compensate for changes in said input voltage, comprising in combination:
- (a) means for producing a synchronizing signal;
(b) means for generating a pulse width modulated ramp signal in response to said synchronizing signal, said input voltage and a signal which terminates each pulse of said pulse width modulated ramp signal;
said pulse width modulated ramp signal having a frequency determined by said synchronizing signal;
(c) means for comparing the amplitude of said pulse width modulated ramp signal to said output voltage to generate a ramp termination signal which selectively terminates each pulse off said pulse width modulated ramp signal;
(d) means responsive to said synchronizing signal and to said ramp termination signal to generate a pulse width modulated signal;
(e) switch means responsive to said pulse width modulated signal to periodically couple the primary winding of a transformer between the positive and negative input terminals of said DC to DC converter to produce a pulsed electrical signal available at the terminals of the secondary winding of said transformer; and
(f) means coupled to the secondary winding of said transformer to convert said pulsed electrical signal to said output voltage.
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Accused Products
Abstract
A DC to DC converter capable of operating from a power source whose output voltage may change over a 10 to 1 range. A switching modulator is used to convert the DC input voltage into a pulsed voltage. Feed forward control techniques are used to control a switching modulator to rapidly compensate for changes in the amplitude of the input voltage. Feed back techniques are used to maintain the output voltage at the desired value. Isolation between the input and output is provided using a transformer to couple the switching circuits to a rectifier and filter which produces the output voltage. A filter optic link provides isolation for the feed back signal.
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Citations
8 Claims
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1. A DC to DC converter for converting an input voltage which may change in amplitude into an output voltage having a substantially constant amplitude utilizing feed forward control to decrease the time required to compensate for changes in said input voltage, comprising in combination:
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(a) means for producing a synchronizing signal; (b) means for generating a pulse width modulated ramp signal in response to said synchronizing signal, said input voltage and a signal which terminates each pulse of said pulse width modulated ramp signal;
said pulse width modulated ramp signal having a frequency determined by said synchronizing signal;(c) means for comparing the amplitude of said pulse width modulated ramp signal to said output voltage to generate a ramp termination signal which selectively terminates each pulse off said pulse width modulated ramp signal; (d) means responsive to said synchronizing signal and to said ramp termination signal to generate a pulse width modulated signal; (e) switch means responsive to said pulse width modulated signal to periodically couple the primary winding of a transformer between the positive and negative input terminals of said DC to DC converter to produce a pulsed electrical signal available at the terminals of the secondary winding of said transformer; and (f) means coupled to the secondary winding of said transformer to convert said pulsed electrical signal to said output voltage. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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8. A DC to DC converter for converting an input voltage to an output voltage utilizing feed forward control to decrease the time required to compensate for changes in the input voltage, comprising in combination:
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(a) first means for generating a pulsed timing signal; (b) second means responsive to said pulsed timing signal for generating a pulse width modulated ramp signal, said second means including a series RC circuit coupled between the input terminals of said DC to DC converter and including circuitry responsive to a reset signal for selectively discharging and holding said RC circuit in a predetermined charge state for a predetermined time interval to generate said pulse width modulated ramp signal whose frequency is determined by said pulsed timing signal; (c) third means for generating a feed back signal having a predetermined relationship to the output voltage of said DC to DC converter; (d) fourth means for comparing said feed back signal to said pulse width modulated ramp signal to generate said reset signal; (e) fifth means responsive to said pulse width modulated ramp signal to convert said input voltage to said output voltage.
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Specification